def __init__(self, name, parent):
super(SnapshotsView, self).__init__(parent)
self._pixmap = None
self._name = name
self._scene = QtGui.QGraphicsScene(parent)
self.setGeometry(QtCore.QRect(0, 0, parent.width(), parent.height()))
self._scale_factor = 1.15
css_frame = """
/*background: #000;
border-top: 2px solid #000;
border-left: 2px solid #000;
border-right: 2px solid #000;
border-top-left-radius: 4px;
border-top-right-radius: 4px;*/
"""
self.setStyleSheet(css_frame)
self.setHorizontalScrollBarPolicy(QtCore.Qt.ScrollBarAlwaysOff)
self.setVerticalScrollBarPolicy(QtCore.Qt.ScrollBarAlwaysOff)
self._item = QtGui.QGraphicsPixmapItem()
self._scene.addItem(self._item)
self._drawings = []
image_pen_px = QtGui.QPixmap(':ftrack/image/integration/pencil')
image_pen_px.setMask(image_pen_px.mask())
self._image_pen_cursor = QtGui.QCursor(image_pen_px)
self._pen_color = QtCore.Qt.red
self._drawing_mode = False
self._pencil_pressed = False
self._position_mouse = None
self.setBackgroundBrush(
QtGui.QBrush(QtCore.Qt.black, QtCore.Qt.SolidPattern))
self.setScene(self._scene)
def paintEvent(self, event):
painter = QtGui.QPainter(self)
painter.setRenderHint(QtGui.QPainter.Antialiasing)
# Design the graph
width_graph = self.width() - (self._pad_left + self._pad_right)
height_graph = self.height() - (self._pad_top + self._pad_bottom)
rect = QtCore.QRect(
self._pad_left, self._pad_top, width_graph, height_graph)
painter.fillRect(self.rect(), self._color_back_2)
painter.fillRect(rect, self._color_back_1)
# Sort graphs to draw the highlighted one at the end
unhighlight_graphs = [
p for p in self._points.keys() if p != self._highlight_graph]
all_graphs_type = unhighlight_graphs + [self._highlight_graph]
# Collect the axis values to draw it at the end...
pts_legend_Y = dict()
pts_legend_X = dict()
versions = range(self._version_number)
width_interval = 1 if len(
versions) == 1 else 1 / float(len(versions) - 1)
for i in versions:
pts_legend_X[i] = self._pad_left + width_graph * i * width_interval
# collect the highlighted point to get the tool-tips..
points_h = dict()
# Get the highlighted point
hover_point = None
# Draw each graph...
for type_graph in all_graphs_type:
if self._points[type_graph] == None:
continue
points_tuples = []
highlighted = type_graph == self._highlight_graph
for i in sorted(pts_legend_X.keys(), reverse=True):
hover = False
try:
graph_point = self._points[type_graph][i]
except IndexError:
pass
else:
padding = self._pad_top + height_graph
relative_position = height_graph * self.raise_level * 0.1
ypos = padding - relative_position * \
graph_point.normalized_value
pt = (pts_legend_X[i], ypos)
points_tuples.append(pt)
pts_legend_Y[graph_point.value] = ypos
if highlighted:
points_h[pt] = graph_point
if self._cursor != None and hover_point == None:
inter_points = width_interval * width_graph * 0.5
if (self._cursor[0] > pts_legend_X[i] - inter_points
and self._cursor[0] < pts_legend_X[i] + inter_points):
hover_point = (pts_legend_X[i], ypos)
hover = True
# Draw vertical lines of the graph (and horizontal if
# necessary)
color = self._color_dot_lines_hover if hover else self._color_dot_lines
painter.setPen(
QtGui.QPen(QtGui.QColor(color), 1, QtCore.Qt.DotLine))
line_tuples = [(pts_legend_X[i], self._pad_top),
(pts_legend_X[i], self.height() - self._pad_bottom)]
line_polys = QtGui.QPolygonF(
map(lambda p: QtCore.QPointF(*p), line_tuples))
painter.drawPolyline(line_polys)
if hover:
line_H = [(self._pad_left, hover_point[1]),
(self._pad_left + width_graph, hover_point[1])]
line_H_polys = QtGui.QPolygonF(
map(lambda p: QtCore.QPointF(*p), line_H))
painter.drawPolyline(line_H_polys)
# Draw the lines of the graph
width_line = 3 if highlighted else 2
color = self._points_colors[
type_graph] if highlighted else self._points_colors[type_graph].darker(110)
painter.setPen(QtGui.QPen(QtGui.QColor(color), width_line))
points_polys = QtGui.QPolygonF(
map(lambda p: QtCore.QPointF(*p), points_tuples))
painter.drawPolyline(points_polys)
# Draw points
for point_tuple in points_tuples:
painter.drawEllipse(
QtCore.QRectF(point_tuple[0] - 2, point_tuple[1] - 2, 4, 4))
# Draw highlighted graph points...
if hover_point != None and self._highlight_graph in self._points_colors.keys():
x_pos, y_pos = hover_point
color = self._points_colors[self._highlight_graph].lighter(160)
painter.setBrush(QtGui.QBrush(color))
painter.setPen(QtGui.QPen(QtGui.QColor(QtCore.Qt.black), 1))
painter.drawEllipse(QtCore.QRectF(x_pos - 5, y_pos - 5, 10, 10))
painter.setPen(QtGui.QPen(QtGui.QColor(self._color_axis_text), 2))
# Draw X Axis
buf_X = 0
for version_nb in sorted(pts_legend_X.keys(), reverse=True):
version_str = "v%d" % (version_nb + 1)
version_position_X = pts_legend_X[
version_nb] - len(version_str) * 5
if buf_X == 0 or buf_X - version_position_X > 40:
pt_legend_X = QtCore.QPointF(version_position_X,
self._pad_top + height_graph + 15)
painter.drawText(pt_legend_X, version_str)
buf_X = version_position_X
# Draw Y Axis
buf_Y = 0
for value_Y in sorted(pts_legend_Y.keys(), reverse=True):
if buf_Y == 0 or pts_legend_Y[value_Y] - buf_Y > 15:
value_str = str(value_Y)
pt_legend_Y = QtCore.QPointF(self._pad_left - len(value_str) * 15,
pts_legend_Y[value_Y] + 10)
bounding_rect = QtCore.QRect(0, pts_legend_Y[value_Y] - 4,
self._pad_left - 15, pts_legend_Y[value_Y] + 10)
painter.drawText(
bounding_rect, QtCore.Qt.AlignRight, value_str)
buf_Y = pts_legend_Y[value_Y]
if hover_point != None:
td = QtGui.QTextDocument()
td.setHtml(points_h[hover_point].tooltip)
width_tooltip = 180
td.setTextWidth(width_tooltip)
height_tooltip = td.size().height()
pos_topleft = QtCore.QPoint(
self._cursor[0] + 5, self._cursor[1] + 5)
if pos_topleft.x() + width_tooltip > self.width() - self._pad_right - 10:
pos_topleft.setX(
self.width() - self._pad_right - width_tooltip - 10)
if pos_topleft.y() + height_tooltip > self.height() - self._pad_bottom - 10:
pos_topleft.setY(
self.height() - self._pad_bottom - height_tooltip - 10)
painter.setOpacity(0.6)
rect = QtCore.QRect(pos_topleft.x(), pos_topleft.y(),
width_tooltip + 20, height_tooltip + 20)
painter.fillRect(rect, self._color_tooltip)
painter.setOpacity(1.0)
painter.translate(pos_topleft.x() + 10, pos_topleft.y() + 10)
ctx = QtGui.QAbstractTextDocumentLayout.PaintContext()
ctx.clip = QtCore.QRect(0, 0, width_tooltip, height_tooltip)
td.documentLayout().draw(painter, ctx)
# Place the buttons
pad_left = 5
pos_bottom = self.height() - 25
for button_name in ["tracked", "in_tree", "enabled", "total"]:
if self._buttons[button_name] != None:
width_btn = self._buttons[button_name].width()
self._buttons[button_name].move(
self.width() - width_btn - pad_left, pos_bottom)
pad_left += width_btn + 5
if self._highlight_graph == button_name:
btn_css = "background:%s; color:#FFF; border:none; border-radius:3px;" % self._points_colors[
button_name].name()
else:
btn_css = "background:#444; color:#FFF; border:none; border-radius:3px;"
self._buttons[button_name].setStyleSheet(btn_css)
# Raise the curve at the first display....
if self.raise_level < 10:
self.raise_level += 1
time.sleep(0.000015)
self.update()
